<?xml version="1.0" encoding="UTF-8"?>
<GenerateModel xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:noNamespaceSchemaLocation="generateMetaModel_Module.xsd">
  <PythonExport
      Father="PyObjectBase"
      Name="PointConstraintPy"
      PythonName="Part.GeomPlate.PointConstraintPy"
      Twin="GeomPlate_PointConstraint"
      TwinPointer="GeomPlate_PointConstraint"
      Include="GeomPlate_PointConstraint.hxx"
      Namespace="Part"
      FatherInclude="Base/PyObjectBase.h"
      FatherNamespace="Base"
      Constructor="true"
      Delete="true">
    <Documentation>
      <Author Licence="LGPL" Name="Werner Mayer" EMail="wmayer@users.sourceforge.net" />
      <UserDocu>Defines points as constraints to be used to deform a surface</UserDocu>
    </Documentation>
    <Methode Name="setOrder">
      <Documentation>
        <UserDocu>Allows you to set the order of continuity required for
the constraints: G0, G1, and G2, controlled
respectively by G0Criterion G1Criterion and G2Criterion.
        </UserDocu>
      </Documentation>
    </Methode>
    <Methode Name="order">
      <Documentation>
        <UserDocu>Returns the order of constraint, one of G0, G1 or G2</UserDocu>
      </Documentation>
    </Methode>
    <Methode Name="G0Criterion">
      <Documentation>
        <UserDocu>Returns the G0 criterion at the parametric point U on
the curve. This is the greatest distance allowed between
the constraint and the target surface at U.
        </UserDocu>
      </Documentation>
    </Methode>
    <Methode Name="G1Criterion">
      <Documentation>
        <UserDocu>Returns the G1 criterion at the parametric point U on
the curve. This is the greatest angle allowed between
the constraint and the target surface at U.
Raises an exception if  the  curve  is  not  on  a  surface.
        </UserDocu>
      </Documentation>
    </Methode>
    <Methode Name="G2Criterion">
      <Documentation>
        <UserDocu>Returns the G2 criterion at the parametric point U on
the curve. This is the greatest difference in curvature
allowed between the constraint and the target surface at U.
Raises an exception if  the  curve  is  not  on  a  surface.
        </UserDocu>
      </Documentation>
    </Methode>
    <Methode Name="setG0Criterion">
      <Documentation>
        <UserDocu>Allows you to set the G0 criterion. This is the law
defining the greatest distance allowed between the
constraint and the target surface for each point of the
constraint. If this criterion is not set, TolDist, the
distance tolerance from the constructor, is used.
        </UserDocu>
      </Documentation>
    </Methode>
    <Methode Name="setG1Criterion">
      <Documentation>
        <UserDocu>Allows you to set the G1 criterion. This is the law
defining the greatest angle allowed between the
constraint and the target surface. If this criterion is not
set, TolAng, the angular tolerance from the constructor, is used.
Raises an exception if  the  curve  is  not  on  a  surface
        </UserDocu>
      </Documentation>
    </Methode>
    <Methode Name="setG2Criterion">
      <Documentation>
        <UserDocu>Allows you to set the G2 criterion. This is the law
 defining the greatest difference in curvature  allowed between the
 constraint and the target surface. If this criterion is not
 set, TolCurv, the curvature tolerance from the constructor, is used.
 Raises  ConstructionError if  the  curve  is  not  on  a  surface</UserDocu>
      </Documentation>
    </Methode>
    <Methode Name="hasPnt2dOnSurf">
      <Documentation>
        <UserDocu>Checks if there is a 2D point associated with the surface. It returns a boolean indicating whether such a point exists.</UserDocu>
      </Documentation>
    </Methode>
    <Methode Name="setPnt2dOnSurf">
      <Documentation>
        <UserDocu>Allows you to set a 2D point on the surface. It takes a gp_Pnt2d as an argument, representing the 2D point to be associated with the surface.</UserDocu>
      </Documentation>
    </Methode>
    <Methode Name="pnt2dOnSurf">
      <Documentation>
        <UserDocu>Returns the 2D point on the surface. It returns a gp_Pnt2d representing the associated 2D point.</UserDocu>
      </Documentation>
    </Methode>
  </PythonExport>
</GenerateModel>
